Processing system for providing enhanced reality interfaces at an automated teller machine (ATM) terminal platform

ABSTRACT

Aspects of the disclosure relate to processing systems that implement an enhanced reality device to facilitate transactions at a screen-less automated teller machine (ATM). A computing platform may receive a request to initiate a transaction with a screen-less automated ATM. Based on the request to initiate the transaction, the computing platform may send pre-transaction interface information and commands directing the enhanced reality device to generate a pre-transaction interface. The computing platform may receive an authentication request from the screen-less ATM indicating its availability and requesting authentication information. In response to validating the authentication information, the computing platform may generate transaction interface information. The computing platform may send the transaction interface information to the enhanced reality device. The computing platform may receive a transaction completion indication from the screen-less ATM. After receiving the transaction completion indication, the computing platform may send haptic feedback indicating that the transaction is complete.

CROSS REFERENCE TO RELATED APPLICATION

This application claims priority to and is a Continuation application ofU.S. Ser. No. 16/123,455, filed on Sep. 6, 2018 and titled “PROCESSINGSYSTEM FOR PROVIDING ENHANCED REALITY INTERFACES AT AN AUTOMATED TELLERMACHINE (ATM) TERMINAL PLATFORM.” The related application isincorporated by reference herein in its entirety for all purposes.

BACKGROUND

Aspects of the disclosure relate to processing systems for providingenhanced reality interfaces at a screen-less automated teller machine.In particular, one or more aspects of the disclosure relate to computingplatforms that utilize enhanced reality interfaces at a screen-lessautomated teller machine to reduce network bandwidth consumption,increase processing efficiency, and increase security of automatedteller machine transactions.

Many organizations and individuals rely on automated teller machines asa means for conducting transactions and providing account access. Inmany instances, however, display screens implemented into automatedteller machines may be prone to failure and difficult to maintain. Inaddition, conducting transactions using a screen implemented intoautomated teller machines may be time consuming, which may result inincreased consumption of network resources and processing power, as wellas lengthy wait times for other customers. Furthermore, interacting withan automated teller machine on an integrated display screen may posesecurity risks from nearby individuals who may be able to obtainconfidential information or otherwise interfere with a giventransaction.

SUMMARY

Aspects of the disclosure provide effective, efficient, scalable, andconvenient technical solutions that address and overcome the technicalproblems associated with receiving input, corresponding to an automatedteller transaction, using a display at an automated teller machine. Forexample, some aspects of the disclosure provide techniques that mayenable computing platforms to cause display of enhanced realityinterfaces corresponding to an automated teller interface in ways thatreduce consumption of network resources and processing power, whileimproving transaction security.

In accordance with an embodiment of the disclosure, a computing platformcomprising at least one processor, a communication interface, and memorystoring computer-readable instructions may receive, from an enhancedreality device, a request to initiate a transaction with a screen-lessautomated teller machine of an automated teller machine terminalplatform. Based on the request to initiate the transaction with thescreen-less automated teller machine, the computing platform maygenerate pre-transaction interface information and one or more commandsdirecting the enhanced reality device to generate a pre-transactionenhanced reality interface. The computing platform may send, to theenhanced reality device, the pre-transaction interface information andthe one or more commands directing the enhanced reality device togenerate the pre-transaction enhanced reality interface. In someinstances, the pre-transaction enhanced reality interface may prompt auser for information that is used to initiate the transaction with thescreen-less automated teller machine. The computing platform may receivean authentication request from the screen-less automated teller machineindicating that the screen-less automated teller machine is availableand requesting authentication information from the enhanced realitydevice. In response to validating the authentication information fromthe enhanced reality device and using the information that is used toinitiate the transaction with the screen-less automated teller machine,the computing platform may generate enhanced reality transactioninterface information. The computing platform may send, to the enhancedreality device, the enhanced reality transaction interface informationand one or more commands directing the enhanced reality device togenerate an enhanced reality transaction interface corresponding to adisplay of the screen-less automated teller machine. The computingplatform may receive a transaction completion indication from thescreen-less automated teller machine indicating that the transactionwith the screen-less automated teller machine is complete. Afterreceiving the transaction completion indication from the screen-lessautomated teller machine indicating that the transaction with thescreen-less automated teller machine is complete, the computing platformmay generate haptic feedback indicating that the transaction is completeand may send, to the enhanced reality device, the haptic feedback.

In some embodiments, the computing platform may establish, with theenhanced reality device, a first wireless data connection and mayestablish, with the automated teller machine terminal platform, a secondwireless data connection. In some embodiments, the computing platformmay receive the information that is used to initiate the transactionwith the screen-less automated teller machine, wherein the informationcorresponds to a type of transaction to be performed and additionalinformation corresponding to the transaction.

In some embodiments, the computing platform may receive apre-transaction completion indication from the enhanced reality device.In response to receiving the pre-transaction completion indication, thecomputing platform may generate a screen-less automated teller machineavailability request and may send, to the automated teller machineterminal platform, the screen-less automated teller machine availabilityrequest.

In some embodiments, the computing platform may send, to the enhancedreality device, the authentication request. In response to theauthentication request, the computing platform may receiveauthentication information and may validate the authenticationinformation. After validating the authentication information, thecomputing platform may generate an authentication indication and maysend, to the screen-less automated teller machine and the enhancedreality device, the authentication indication.

In some embodiments, the computing platform may generate, based on theinformation that is used to initiate the transaction with thescreen-less automated teller machine, the enhanced reality transactioninterface information. In some embodiments, the computing platform mayreceive sensor data from one or more sensors connected to thescreen-less automated teller machine. Based on the sensor data, thecomputing platform may generate a transaction notification and one ormore commands directing the enhanced reality device to cause display ofthe transaction notification. The computing platform may send, to theenhanced reality device, the transaction notification and the one ormore commands directing the enhanced reality device to cause display ofthe transaction notification.

In some embodiments, the computing platform may receive a transactioncompletion indication. In response to receiving the transactioncompletion indication, the computing platform may generate one or morecommands directing the enhanced reality device to provide a hapticfeedback output indicating that the transaction is complete.

In some embodiments, the computing platform may receive post-transactioninformation. Based on the post-transaction information, the computingplatform may generate post-transaction interface information and maysend, to the enhanced reality device, the post-transaction interfaceinformation. In some instances, sending the post-transaction interfaceinformation may cause the enhanced reality device to generate one ormore post-transaction enhanced reality interfaces using thepost-transaction interface information.

These features, along with many others, are discussed in greater detailbelow.

BRIEF DESCRIPTION OF THE DRAWINGS

The present disclosure is illustrated by way of example and not limitedin the accompanying figures in which like reference numerals indicatesimilar elements and in which:

FIGS. 1A and 1B depict an illustrative computing environment fordeploying a processing system that controls enhanced reality interfacescorresponding to a screen-less automated teller machine in accordancewith one or more example embodiments;

FIGS. 2A-2N depict an illustrative event sequence for deploying aprocessing system that controls enhanced reality interfacescorresponding to a screen-less automated teller machine in accordancewith one or more example embodiments;

FIGS. 3-6 depict example graphical user interfaces for deploying aprocessing system that controls enhanced reality interfacescorresponding to a screen-less automated teller machine in accordancewith one or more example embodiments; and

FIG. 7 depicts an illustrative method for deploying a processing systemthat controls enhanced reality interfaces corresponding to a screen-lessautomated teller machine in accordance with one or more exampleembodiments.

DETAILED DESCRIPTION

In the following description of various illustrative embodiments,reference is made to the accompanying drawings, which form a parthereof, and in which is shown, by way of illustration, variousembodiments in which aspects of the disclosure may be practiced. In someinstances other embodiments may be utilized, and structural andfunctional modifications may be made, without departing from the scopeof the present disclosure.

It is noted that various connections between elements are discussed inthe following description. It is noted that these connections aregeneral and, unless specified otherwise, may be direct or indirect,wired or wireless, and that the specification is not intended to belimiting in this respect.

The following description relates to a screen-less automated tellermachine (ATM) that leverages augmented reality (AR) technology toprovide AR-based interfaces to a user interacting with the ATM. In anexample use case, a user may walk up to an AR-enabled ATM and berecognized by the ATM based on biometrics, Bluetooth/NFC signals fromtheir mobile/AR device, or the like. The AR device and ATM may establisha communications link (e.g., via a backend server) and the AR device maypresent AR interfaces that enable the user to interact with the ATM(e.g., by providing AR/virtual overlays on physical pieces of the ATM).The ATM itself might not have a display screen—and instead may only havea biometric reader, dispensing device, and the like—such that all of theinteraction is done on the user's personal AR device. In some instances,the user may be authenticated based on location-based detection (e.g.,proximity) and/or biometric-based recognition (e.g., facial scan,retina, fingerprint, and the like). In some instances, the ATM itselfmight not include biometric sensors—instead the biometricrecognition/authentication may be performed on the customer's registeredmobile device (which may communicate with the backend server and/or theATM to indicate if/when the customer is authenticated).

FIGS. 1A-1B depict an illustrative computing environment for deploying aprocessing system for providing enhanced reality interfaces at ascreen-less automated teller machine in accordance with one or moreexample embodiments. Referring to FIG. 1A, computing environment 100 mayinclude one or more computer systems. For example, computing environment100 may include an automated teller machine terminal platform 102, anenhanced reality device 103, and an enhanced reality teller controlplatform 104.

Automated teller machine terminal platform 102 may be a computer systemthat includes one or more computing devices and/or other computercomponents (e.g., processors, memories, communication interfaces). Inaddition, automated teller machine terminal platform 102 may beconfigured to receive requests (e.g., requests to process a withdrawal,process a deposit, transfer funds, and the like). In some instances, theautomated teller machine terminal platform 102 may be configured to onlyinteract with an enhanced reality device, such as the enhanced realitydevice 103. Additionally or alternatively, the automated teller machineterminal platform 102 might not comprise a display. Additionally oralternatively, the automated teller machine terminal platform 102 mightnot resemble a standard automated teller machine, but rather may onlyinclude slots for inputting and outputting various items (debit cards,cash, and the like). Additionally or alternatively, the automated tellermachine terminal platform 102 might not be visually recognizable as anautomated teller machine, but rather it may include functionalcomponents and/or decorative components that are configured to blendinto the local environment and/or deployment location of the automatedteller machine terminal platform 102. Thus, it may be difficult todetermine that a user is actually performing a transaction at theautomated teller machine terminal platform 102. Additionally oralternatively, the automated teller machine terminal platform 102 mayinclude a biometric scanner than may be used for user authentication. Insome instances, the automated teller machine terminal platform 102 maycomprise a single screen-less automated teller machine. In otherinstances, the automated teller machine terminal platform 102 maycomprise multiple screen-less automated teller machines (e.g., theautomated teller machine terminal platform 102 may be a six-sidedscreen-less automated teller machine). In these instances, the automatedteller machine terminal platform 102 may be configured to determineavailability of the various screen-less automated teller machines, andmay generate an authentication request to validate interactions betweenthe available screen-less automated teller machine and an enhancedreality device.

Enhanced reality device 103 may include one or more computing devicesand/or other computer components (e.g., processors, memories,communication interfaces). In addition, and as illustrated in greaterdetail below, enhanced reality device 103 may cause display of and/orotherwise present one or more graphical user interfaces. In someinstances, the enhanced reality device 103 may be an augmented realitydevice, virtual reality device, or the like. In some instances, thegraphical user interfaces presented by enhanced reality device 103 mayprovide access to an automated teller experience, such as an enhancedreality automated teller experience provided by a financial institution.Such graphical user interfaces, for instance, may provide access tofinancial accounts that may be modified using withdrawals, deposits,transfers, and the like. In some instances, providing the graphical userinterfaces at the enhanced reality device 103 may prompt a user toproceed to a particular screen-less automated teller machine, insert adebit card into a particular slot, enter a particular amount forwithdrawal, and the like. Additionally or alternatively, the enhancedreality device 103 may also cause display of one or more securitynotifications (e.g., unauthorized personnel are within a predeterminedsecurity perimeter corresponding to the screen-less automated tellermachine). In some examples, the graphical user interfaces may providecustomers of the financial institution with menus, controls, and/orother options to execute various resolution actions (e.g., withdraw,deposit, transfer, or the like).

As illustrated in greater detail below, enhanced reality teller controlplatform 104 may be configured to generate, host, transmit, and/orotherwise provide one or more graphical user interfaces (which may,e.g., cause one or more other computer systems to display and/orotherwise present one or more other graphical user interfaces). In someinstances, the other graphical user interfaces generated by enhancedreality teller control platform 104 may provide access to a financialaccount for performing one or more transactions. In some instances, theenhanced reality teller control platform may be configured to facilitatetransactions at the screen-less automated teller machine using variousinterfaces displayed at the enhanced reality device.

Computing environment 100 also may include one or more networks, whichmay interconnect automated teller machine terminal platform 102,enhanced reality device 103, and enhanced reality teller controlplatform 104. For example, computing environment 100 may include anetwork 101 (which may interconnect, e.g., automated teller machineterminal platform 102, enhanced reality device 103, enhanced realityteller control platform 104).

In one or more arrangements, automated teller machine terminal platform102, enhanced reality device 103, enhanced reality teller controlplatform 104, and/or the other systems included in computing environment100 may be any type of computing device capable of receiving a userinterface, receiving input via the user interface, and communicating thereceived input to one or more other computing devices. For example,automated teller machine terminal platform 102, enhanced reality device103, enhanced reality teller control platform 104, and/or the othersystems included in computing environment 100 may, in some instances, beand/or include server computers, desktop computers, laptop computers,tablet computers, smart phones, virtual reality devices, augmentedreality devices, or the like that may include one or more processors,memories, communication interfaces, storage devices, and/or othercomponents. As noted above, and as illustrated in greater detail below,any and/or all of automated teller machine terminal platform 102,enhanced reality device 103, and enhanced reality teller controlplatform 104 may, in some instances, be special-purpose computingdevices configured to perform specific functions.

Referring to FIG. 1B, enhanced reality teller control platform 104 mayinclude one or more processors 111, memory 112, and communicationinterface 113. A data bus may interconnect processor 111, memory 112,and communication interface 113. Communication interface 113 may be anetwork interface configured to support communication between enhancedreality teller control platform 104 and one or more networks (e.g.,network 101, or the like). Memory 112 may include one or more programmodules having instructions that when executed by processor 111 causeenhanced reality teller control platform 104 to perform one or morefunctions described herein and/or one or more databases that may storeand/or otherwise maintain information which may be used by such programmodules and/or processor 111. In some instances, the one or more programmodules and/or databases may be stored by and/or maintained in differentmemory units of enhanced reality teller control platform 104 and/or bydifferent computing devices that may form and/or otherwise make upenhanced reality teller control platform 104. For example, memory 112may have, host, store, and/or include an enhanced reality teller controlmodule 112 a and an enhanced reality teller control database 112 b.Enhanced reality teller control module 112 a may have instructions thatdirect and/or cause enhanced reality teller control platform 104 toexecute advance enhanced reality teller control techniques, as discussedin greater detail below. Enhanced reality teller control database 112 bmay store information used by enhanced reality teller control module 112a and/or enhanced reality teller control platform 104 in enhancedreality teller control and/or in performing other functions.

FIGS. 2A-2N depict an illustrative event sequence for deploying aprocessing system that controls enhanced reality interfacescorresponding to a screen-less automated teller machine in accordancewith one or more example embodiments. Referring to FIG. 2A, at step 201,enhanced reality device 103 may receive a transaction request inputcorresponding to a request to conduct a transaction at a screen-lessautomated teller machine. In some instances, in receiving thetransaction request input, the enhanced reality device 103 may receive ahand gesture, a voice command, a head gesture, an eye movement, and thelike.

At step 202, the enhanced reality device 103 may establish a connectionwith an enhanced reality teller control platform, such as enhancedreality teller control platform 104. In some instances, enhanced realitydevice 103 may establish a first wireless connection with enhancedreality teller control platform 104 to link the enhanced reality device103 to the enhanced reality teller control platform 104.

At step 203, the enhanced reality device 103 may send transactionrequest information to the enhanced reality teller control platform 104.In some instances, the enhanced reality device may send the transactionrequest information to the enhanced reality teller control platform 104while the first wireless data connection is established. In sending thetransaction request information to the enhanced reality teller controlplatform 104, the enhanced reality device 103 may send informationindicating that a user of the enhanced reality device 103 requested atransaction to be performed.

At step 204, the enhanced reality teller control platform 104 mayreceive the transaction request information sent at step 203. In someinstances, the enhanced reality teller control platform 104 may receivethe transaction request information via the communication interface 113while the first wireless data connection is established.

Referring to FIG. 2B, at step 205, the enhanced reality teller controlplatform 104 may generate pre-transaction interface information and oneor more commands directing the enhanced reality device 103 to generate apre-transaction enhanced reality interface using the pre-transactioninterface information. In some instances, the pre-transaction interfaceinformation may allow a user to pre-stage a transaction, such as anautomated teller transaction, using the enhanced reality device 103.

At step 206, the enhanced reality teller control platform 104 may sendthe pre-transaction interface information and the one or more commandsdirecting the enhanced reality device 103 to generate thepre-transaction enhanced reality interface to the enhanced realitydevice 103. In some instances, the enhanced reality teller controlplatform 104 may send, via the communication interface 113 and while thefirst wireless data connection is established, the pre-transactioninterface information and the one or more commands directing theenhanced reality device 103 to generate the pre-transaction enhancedreality interface to the enhanced reality device 103.

At step 207, the enhanced reality device 103 may receive thepre-transaction interface information and the one or more commandsdirecting the enhanced reality device 103 to generate thepre-transaction enhanced reality interface sent at step 206. In someinstances, the enhanced reality device 103 may receive thepre-transaction interface information and the one or more commandsdirecting the enhanced reality device 103 to generate thepre-transaction enhanced reality interface while the first wireless dataconnection is established.

At step 208, the enhanced reality device 103 may generate apre-transaction interface using the pre-transaction interfaceinformation. In some instances, in generating the pre-transactioninterface, the enhanced reality device 103 may cause display of aninterface that prompts for pre-transaction input via a user interface ofthe enhanced reality device 103. In these instances, the enhancedreality device 103 may prompt for a type of transaction, additionaltransaction information, account information, and the like that may beused to pre-stage the transaction before the user arrives at theautomated teller machine terminal platform 102. In some instances, ingenerating the pre-transaction interface, the enhanced reality device103 may generate textual prompts and indications in a particularlanguage preset by the user. In these instances, the enhanced realitydevice 103 may determine the language based on the pre-transactioninterface information received at step 207. In some instances, indetermining the language, the enhanced reality device 103 may alsodetermine font preferences.

Referring to FIG. 2C, at step 209, enhanced reality device 103 mayreceive the pre-transaction input prompted for at step 208. In someinstances, the enhanced reality device 103 may receive thepre-transaction input via a user interface of the enhanced realitydevice 103, such as a display of a mobile phone. Additionally oralternatively, the enhanced reality device 103 may receive thepre-transaction input by monitoring a gesture, such as a hand gesture, ahead turn, or the like. Additionally or alternatively, the enhancedreality device 103 may receive the pre-transaction input by monitoringeye movements of a user who is wearing a virtual reality headset,augmented reality glasses, and the like.

At step 210, the enhanced reality device 103 may send pre-transactioninput information, based on the pre-transaction input received at step209, to the enhanced reality teller control platform 104. In someinstances, the enhanced reality device 103 may send the pre-transactioninformation to the enhanced reality teller control platform 104 whilethe first wireless data connection is established. In some instances,the enhanced reality teller control platform 104 may receive thepre-transaction input information via the communication interface 113and while the first wireless data connection is established.

At step 211, the enhanced reality device 103 may generate apre-transaction completion indication after sending the pre-transactioninformation. In some instances, the enhanced reality device 103 maydetermine whether an additional pre-transaction input may be received.If additional pre-transaction input is not to be received, the enhancedreality device 103 may proceed to step 212. If an additionalpre-transaction input is to be received, the enhanced reality device 103may return to step 209 to receive the additional pre-transaction input.In these instances, the enhanced reality device 103 may prompt for anadditional pre-transaction input, and may proceed to step 211 if theadditional pre-transaction input is not received within a predeterminedperiod of time. In generating the pre-transaction completion indication,the enhanced reality device 103 may generate an indication indicatingthat the pre-transaction information corresponding to thepre-transaction input has been sent to the enhanced reality tellercontrol platform 104, and that the enhanced reality device 103 isprepared to facilitate a transaction, based on the pre-transactioninformation, between a user and a screen-less automated teller machineof the automated teller machine terminal platform 102.

At step 212, the enhanced reality device 103 may send thepre-transaction completion indication to the enhanced reality tellercontrol platform 104. In some instances, the enhanced reality device 103may send the pre-transaction completion indication to the enhancedreality teller control platform 104 while the first wireless dataconnection is established.

Referring to FIG. 2D, at step 213, the enhanced reality teller controlplatform 104 may receive the pre-transaction completion indication sentat step 212. In some instances, the enhanced reality teller controlplatform 104 may receive the pre-transaction completion indication viathe communication interface 113 and while the first wireless dataconnection is established.

At step 214, the enhanced reality teller control platform 104 maygenerate an automated teller machine availability request. In someinstances, in generating the automated teller machine availabilityrequest, the enhanced reality teller control platform 104 may generate arequest for the automated teller machine terminal platform 102 todetermine availability of one or more screen-less automated tellermachines at the automated teller machine terminal platform 102, and toprovide an indication of an available screen-less automated tellermachine.

At step 215, the enhanced reality teller control platform 104 mayestablish a connection with automated teller machine terminal platform102. In some instances, the enhanced reality teller control platform 104may establish a second wireless data connection with the automatedteller machine terminal platform 102 to link the automated tellermachine terminal platform 102 to the enhanced reality teller controlplatform 104.

At step 216, the enhanced reality teller control platform 104 may sendthe automated teller machine availability request, generated at step214, to the automated teller machine terminal platform 102. In someinstances, in sending the automated teller machine availability request,the enhanced reality teller control platform 104 may send, via thecommunication interface 113 and while the second wireless dataconnection is established, the automated teller machine availabilityrequest. The automated teller machine terminal platform 102 may receivethe automated teller machine availability request. In some instances,the automated teller machine terminal platform 102 may receive theautomated teller machine availability request while the second wirelessdata connection is established.

Referring to FIG. 2E, at step 217, the automated teller machine terminalplatform 102 may determine availability of one or more screen-lessautomated teller machines at the automated teller machine terminalplatform 102. In some instances, the automated teller machine terminalplatform 102 may determine that an estimated wait time for a particularscreen-less automated teller machine is less than an estimated wait timefor the other screen-less automated teller machines. Additionally oralternatively, the automated teller machine terminal platform 102 maydetermine that a particular screen-less automated teller machine is notbeing used. In some instances, the automated teller machine terminalplatform 102 may determine availability for a subset of the screen-lessautomated teller machines that are capable of performing the type oftransaction indicated in the pre-transaction input information Inanother instance, the automated teller machine terminal platform 102 maydetermine availability for all screen-less automated teller machines ofthe automated teller machine terminal platform. Additionally oralternatively, the automated teller machine terminal platform 102 maydetermine that a particular screen-less automated teller machine isavailable for transactions with an average transaction time that is lessthan a predetermined threshold (e.g., express transactions).

At step 218, the automated teller machine terminal platform 102 may sendan indication of the automated teller machine availability, indicatingan available or soon to be available screen-less automated tellermachine of the automated teller machine terminal platform 102.Additionally or alternatively, the automated teller machine terminalplatform 102 may send an authentication request prompting a user forauthentication credentials. In some instances, the automated tellermachine terminal platform 102 may send, while the second wireless dataconnection is established, the indication of the automated tellermachine availability and the authentication request.

At step 219, the enhanced reality teller control platform 104 mayreceive the indication of the automated teller machine availability andthe authentication request sent at step 218. In some instances, theenhanced reality teller control platform 104 may receive the indicationof the automated teller machine availability via the communicationinterface 113 and while the second wireless data connection isestablished.

At step 220, the enhanced reality teller control platform 104 mayforward the authentication request, received at step 219, to theenhanced reality device 103. In some instances, the enhanced realityteller control platform 104 may send, via the communication interface113 and while the first wireless data connection is established, theauthentication request.

Referring to FIG. 2F, at step 221, the enhanced reality device 103 mayreceive the authentication request sent at step 220. In some instances,the enhanced reality device 103 may receive the authentication requestfrom the enhanced reality teller control platform 104 while the firstwireless data connection is established.

At step 222, the enhanced reality device 103 may generate anauthentication prompt in response to receiving the authenticationrequest. In some instances, the enhanced reality device 103 may generateand cause display of an enhanced reality user interface prompting theuser to provide authentication credentials such as a personalidentification number (PIN), log in information, and the like.

At step 223, the enhanced reality device 103 may receive anauthentication input in response to the authentication prompt generatedat step 222. In some instances, the enhanced reality device 103 mayreceive a voice command, a gesture input, a touch screen input, eyemovements, biometric recognition, fingerprint authentication, and thelike indicating the authentication information. In some instances,authentication information may be received at the automated tellermachine terminal platform 102 using location-based detection (e.g.,proximity) and/or biometric-based recognition (e.g., facial scan,retina, fingerprint, and the like.) In these instances, rather thansending the authentication information from the enhanced reality device103 to the enhanced reality teller control platform 104, the automatedteller machine terminal platform 102 may send the authenticationinformation to the enhanced reality teller control platform 104.

At step 224, the enhanced reality device 103 may send authenticationinformation, based on the authentication input received at step 223, tothe enhanced reality teller control platform 104. In some instances, theenhanced reality device 103 may send the authentication information tothe enhanced reality teller control platform 104 while the firstwireless data connection is established.

Referring to FIG. 2G, at step 225, enhanced reality teller controlplatform 104 may authenticate the enhanced reality device 103 using theauthentication information sent at step 224. In some instances, theenhanced reality teller control platform 104 may validate the enhancedreality device 103 based on a comparison of the authenticationinformation received against stored authentication informationcorresponding to the user's account. If the enhanced reality tellercontrol platform 104 does not validate the enhanced reality device 103,the enhanced reality teller control platform 104 may return to step 221and receive an additional authentication request. If the enhancedreality teller control platform 104 validates the enhanced realitydevice 103, the enhanced reality teller control platform 104 may proceedto step 226.

At step 226, the enhanced reality teller control platform 104 may sendan authentication indication to the automated teller machine terminalplatform 102 and the enhanced reality device 103. In some instances, theenhanced reality teller control platform 104 may send the authenticationindication to the automated teller machine terminal platform 102 via thecommunication interface 113 and while the second wireless dataconnection is established. In some instances, the enhanced realityteller control platform 104 may send the authentication indication tothe enhanced reality device 103 via the communication interface 113 andwhile the first wireless data connection is established. Additionally oralternatively, the enhanced reality teller control platform 104 may sendone or more commands to the enhanced reality device 103 directing theenhanced reality device 103 to case display of the authenticationindication.

At step 227, the enhanced reality device 103 may receive theauthentication indication sent at step 226. In some instances, theenhanced reality device 103 may receive the authentication indicationwhile the first wireless data connection is established. Additionally oralternatively, the enhanced reality device 103 may receive the one ormore commands directing the enhanced reality device 103 to cause displayof the authentication indication. In some instances, based on the one ormore commands directing the enhanced reality device 103 to cause displayof the authentication indication, the enhanced reality device 103 maycause display of a graphical user interface similar to graphical userinterface 305, which is illustrated in FIG. 3. As seen in FIG. 3,graphical user interface 305 may indicate that the user has beenauthenticated. Additionally or alternatively, the graphical userinterface 305 may indicate a particular screen-less automated tellermachine that the user should use to continue the transaction.Additionally or alternatively, enhanced reality device 103 may determinethe particular screen-less automated teller machine using a quickresponse (QR) code, radio-frequency identification (RFID), geolocation,and the like. In some instances, the user may proceed to the assignedscreen-less automated teller machine displayed on the authenticationinterface.

At step 228, the automated teller machine terminal platform 102 mayreceive the authentication indication send at step 226. In someinstances, the automated teller machine terminal platform 102 mayreceive the authentication indication while the second wireless dataconnection is established. Although steps 214-228 describe determiningscreen-less automated teller machine availability, it should beunderstood that these steps may also be performed to determine liveteller availability at a branch office of a financial institution. Insome instances, a customer may provide live tellers with transactioninformation before arriving at the branch office to finalize atransaction. Additionally or alternatively, this information may be usedto estimate staffing needs at particular times throughout the day and toimprove transaction processing efficiency.

Referring to FIG. 2H, at step 229, the enhanced reality teller controlplatform 104 may generate transaction interface information and one ormore commands to generate a transaction interface. In some instances, ingenerating the transaction interface information, the enhanced realityteller control platform 104 may generate information that may be used tofacilitate the transaction at the screen-less automated teller machine.Additionally or alternatively, the enhanced reality teller controlplatform 104 may generate information that may be used to generate aninterface resembling an automated teller machine display screen.

At step 230, the enhanced reality teller control platform 104 may sendthe transaction interface information and the one or more commands togenerate a transaction interface to the enhanced reality device. In someinstances, the enhanced reality teller control platform 104 may send thetransaction interface information and the one or more commands togenerate a transaction interface via the communication interface 113 andwhile the first wireless data connection is established.

At step 231, the enhanced reality device 103 may receive the transactioninterface information sent at step 230. In some instances, the enhancedreality device 103 may receive the transaction interface informationwhile the first wireless data connection is established.

At step 232, the enhanced reality device 103 may cause display of atransaction interface based on the transaction interface information andthe one or more commands to generate a transaction interface received atstep 231. In some instances, in causing display of the transactioninterface, the enhanced reality device 103 may cause display of agraphical user interface similar to graphical user interface 405, whichis illustrated in FIG. 4. As seen in FIG. 4, graphical user interface405 may provide assistance to a user by highlighting a particularfeature of the screen-less automated teller machine such as an ATM cardslot, a slot to dispense cash, and the like. In such instances, thetransaction interface may correspond to guidance that may assist a userwith performing a transaction. In addition, graphical user interface 405may be displayed as an overlay on real-world elements using transparentand/or translucent display elements of the enhanced reality device 103.For instance, graphical user interface 405 may be displayed as anoverlay on a headset-style augmented reality device (e.g., augmentedreality glasses, virtual reality headsets, or the like), a mobiledevice, or any other type of enhanced reality device. In some instances,enhanced reality device 103 may display and/or otherwise present thegraphical user interface 405 as an overlay on one or more real-worldelements viewed by a user of the enhanced reality device 103 using oneor more transparent and/or translucent display portions of the enhancedreality device 103.

Additionally or alternatively, in causing display of the transactioninterface, the enhanced reality device 103 may cause display of agraphical user interface similar to graphical user interface 505, whichis illustrated in FIG. 5. As seen in FIG. 5, graphical user interface505 may resemble an automated teller machine display. In such instances,the transaction interface may prompt a user to input information used toconduct the transaction such as a withdrawal amount. It should beunderstood that although FIG. 5 illustrates a withdrawal, other types ofautomated teller machine transactions may be conducted using thegraphical user interface 505.

In some instances, in causing display of the transaction interface, theenhanced reality device 103 may provide a dynamic customized interfacebased on demographic information corresponding to the user (e.g.,tailored to various age groups, geographic regions, or the like). Insome instances, the customized interfaces may be pre-configured by theuser or by a financial institution. Additionally or alternatively, incausing display of the transaction interface, the enhanced realitydevice 103 may cause display of one or more gamification user interfacesthat may dynamically update based on the transaction (e.g., a cylinderthat fills up with a different color based on current savings, apurchasable item that fills up with a different color as stored fundsapproach the purchase price, or the like).

Referring to FIG. 2I, at step 233, the enhanced reality teller controlplatform 104 may receive sensor data. In some instances, in receivingthe sensor data, the enhanced reality teller control platform 104 mayreceive sensor data corresponding to a security perimeter of thescreen-less automated teller machine. In some instances, the enhancedreality teller control platform 104 may receive sensor data from motionsensors, heat sensors, pressure sensors, cameras, and the like.

At step 234, the enhanced reality teller control platform 104 maygenerate a transaction notification based on the sensor data received atstep 233. In some instances, the enhanced reality teller controlplatform 104 may also generate one or more commands directing theenhanced reality device 103 to cause display of the transactionnotification. In generating the transaction notification, the enhancedreality teller control platform 104 may generate a security notificationto warn the user of the presence of unauthorized personnel. In someinstances, the enhanced reality teller control platform 104 may generatetext notifications, video overlays, proximity indications, flashingindications, and the like.

At step 235, the enhanced reality teller control platform 104 may sendthe transaction notification and the one or more commands directing theenhanced reality device 103 to cause display of the transactionnotification, generated at step 234, to the enhanced reality device 103.In some instances, the enhanced reality teller control platform 104 maysend, while the first wireless data connection is established and viathe communication interface 113, the transaction notification and theone or more commands directing the enhanced reality device 103 to causedisplay of the transaction notification.

At step 236, the enhanced reality device 103 may receive the transactionnotification and the one or more commands directing the enhanced realitydevice 103 to cause display of the transaction notification sent at step235. In some instances, the enhanced reality device 103 may receive thetransaction notification and the one or more commands directing theenhanced reality device 103 to cause display of the transactionnotification while the first wireless data connection is established.

Referring to FIG. 2J, at step 237, the enhanced reality device 103 maycause display of the transaction notification. In some instances, incausing display of the transaction notification, the enhanced realitydevice 103 may cause display of a security notification via a display ofthe enhanced reality device 103. In some instances, the enhanced realitydevice 103 may cause display of a graphical user interface similar tographical user interface 605, which is illustrated in FIG. 6. As seen inFIG. 6, graphical user interface 605 may indicate that unauthorizedpersonnel has been detected behind the user (e.g., someone may bestanding close to the user and may have an ability obtain confidentialinformation and/or otherwise interfere with the transaction). In thisinstance, the graphical user interface 605 may indicate that moneywithdrawn by the user may be dispensed after a delay. In some instances,the delay may correspond to a period of time that the unauthorizedpersonnel takes to vacate a predetermined security perimetercorresponding to the screen-less automated teller machine. In someinstances, the graphical user interface 605 may include a map of thepredetermined security perimeter and may cause display of locations ofthe user and the unauthorized personnel relative to each other. Althoughgraphical user interface 605 illustrates a notification that cash willbe dispensed after a delay, it should be understood that varioussecurity notifications may be displayed such as an indication not toinsert a debit card, an indication not to enter a PIN number, and thelike.

By causing display of the transaction notifications using the enhancedreality device 103, the enhanced reality device 103 may increasesecurity corresponding to automated teller machine transactions. Assuch, rather than being housed in physical structures for increasedsecurity, the screen-less automated teller machines may be located outin the open. In some instances, the screen-less automated tellermachines may be non-descript devices that may otherwise beunrecognizable as an automated teller machine, as described furtherabove with regard to FIG. 1B. In these instances, multiple financialinstitutions may share the screen-less automated teller machines andbranding corresponding to a particular financial institutioncorresponding to the user may be displayed through an enhanced realityinterface. In instances where the screen-less automated teller machinesare difficult to locate due to their non-descript nature, the enhancedreality device 103 may provide various options to locate and to navigateto the screen-less automated teller machine. Although receiving sensordata and generating transaction notifications are described above withregard to steps 233-237, it should be understood that such sensor datamay be received and such transaction notifications may be generated atany point throughout the described event sequence

At step 238, the enhanced reality device 103 may receive a transactioninput. In receiving the transaction input, the enhanced reality device103 may receive user input that may ordinarily be displayed on a displayat an automated teller machine. In some instances, the enhanced realitydevice 103 may receive the transaction input by receiving a voicecommand, a touch input, a gesture input, and the like. In someinstances, the transaction input may correspond to the informationprompted for by the transaction interface at step 232 such as awithdrawal amount, a deposit amount, a transfer amount, and the like.

At step 239, the enhanced reality device 103 may send transactioninformation, based on the transaction input, to the enhanced realityteller control platform 104. In some instances, the enhanced realitydevice 103 may send the transaction information to the enhanced realityteller control platform 104 while the first wireless data connection isestablished.

At step 240, the enhanced reality teller control platform 104 mayreceive the transaction information sent at step 239. In some instances,the enhanced reality teller control platform 104 may receive thetransaction information via the communication interface 113 and whilethe first wireless data connection is established.

Referring to FIG. 2K, at step 241, enhanced reality teller controlplatform 104 may send the transaction information, received at step 240,to the automated teller machine terminal platform 102. In someinstances, the enhanced reality teller control platform 104 may send thetransaction information via the communication interface 113 and whilethe second wireless data connection is established.

At step 242, the automated teller machine terminal platform 102 mayreceive the transaction information sent at step 241. In some instances,the automated teller machine terminal platform 102 may receive thetransaction information while the second wireless data connection isestablished.

At step 243, the automated teller machine terminal platform 102 mayperform the transaction based on the transaction information received atstep 242. In some instances, in performing the transaction based on thetransaction information, a screen-less automated teller machine of theautomated teller machine terminal platform 102 may cause money to bedeposited, withdrawn, transferred, or the like.

At step 244, the automated teller machine terminal platform 102 may senda transaction completion indication to the enhanced reality tellercontrol platform 104. In sending the transaction completion indication,the automated teller machine terminal platform 102 may notify theenhanced reality teller control platform that the requested transactionhas been performed. In some instances, the automated teller machineterminal platform 102 may send the transaction completion indication tothe enhanced reality teller control platform 104 while the secondwireless data connection is established.

Referring to FIG. 2L, at step 245 the enhanced reality teller controlplatform 104 may receive the transaction completion indication. In someinstances, the enhanced reality teller control platform 104 may receivethe transaction completion indication via the communication interface113 and while the second wireless data connection is established.

At step 246, the enhanced reality teller control platform 104 maygenerate one or more commands directing the enhanced reality device 103to indicate that the transaction has been completed using hapticfeedback. In some instances, the one or more commands directing theenhanced reality device 103 to indicate that the transaction has beencompleted using haptic feedback may direct the enhanced reality device103 to communicate with an additional device and to cause the additionaldevice to provide the haptic feedback. In these instances, theadditional device may be a wearable device such as a smart watch,fitness tracker, and the like.

At step 247, the enhanced reality teller control platform 104 may sendthe one or more commands directing the enhanced reality device 103 toindicate that the transaction has been completed using haptic feedback.In some instances, the enhanced reality teller control platform 104 maysend the one or more commands directing the enhanced reality device 103to indicate that the transaction has been completed using hapticfeedback via the communication interface 113 and while the firstwireless data connection is established.

At step 248, the enhanced reality device 103 may receive the one or morecommands directing the enhanced reality device 103 to indicate that thetransaction has been completed using haptic feedback and may provide ahaptic feedback output. In some instances, the enhanced reality device103 may receive the one or more commands directing the enhanced realitydevice 103 to indicate that the transaction has been completed usinghaptic feedback while the first wireless data connection is established.In some instances, in providing the haptic feedback output, the enhancedreality device 103 may vibrate to indicate that the transaction has beencompleted. Additionally or alternatively, the enhanced reality device103 may cause a wearable device other than the enhanced reality device103 to vibrate to indicate that the transaction has been completed. Insome instances, in addition to indicating that the transaction has beencompleted, the haptic feedback may indicate that cash or an automatedteller machine card is still in the screen-less automated teller machineand may be a reminder to the user to remove the cash before walking awayfrom the screen-less automated teller machine. After receiving thehaptic feedback output, the user may walk away from the screen-lessautomated teller machine.

Referring to FIG. 2M, at step 249, the enhanced reality device 103 mayreceive a post-transaction input. In some instances, in receiving thepost-transaction input, the enhanced reality device 103 may receive auser input indicating that the user wants to pursue additionaltransactions and/or other actions that may be performed away from thescreen-less automated teller machine. In some instances, thepost-transaction input may be an indication to conduct a transactionsuch as a money transfer between accounts. The enhanced reality device103 may facilitate the money transfer although the user is no longerstanding at the screen-less automated teller machine. This may reducetransaction times at the automated teller machine terminal platform 102and may increase the efficiency of processing various requests.Additionally or alternatively, the post-transaction input may be anindication to pursue an advertisement presented by the enhanced realitydevice 103. In some instances, in presenting the advertisement, theenhanced reality device 103 may cause display of informationcorresponding to various accounts, credit cards, services, and the likeproviding by the financial institution, and the post-transaction inputmay correspond to an indication to learn more or to sign up for suchadditional services.

At step 250, the enhanced reality device 103 may send post-transactioninformation, based on the post-transaction input received at step 249,to the enhanced reality teller control platform 104. In some instances,the enhanced reality device 103 may send the post-transactioninformation to the enhanced reality teller control platform 104 whilethe first wireless data connection is established.

At step 251, the enhanced reality teller control platform 104 mayreceive the post-transaction information sent at step 250. In someinstances, the enhanced reality teller control platform 104 may receivethe post-transaction information via the communication interface 113 andwhile the first wireless data connection is established. At step 252,the enhanced reality teller control platform 104 may generate, based onthe post-transaction information, post-transaction interface informationand one or more commands directing the enhanced reality device 103 tocause display of a post-transaction interface.

Referring to FIG. 2N, at step 253, the enhanced reality teller controlplatform 104 may send the post-transaction interface information and oneor more commands directing the enhanced reality device 103 to causedisplay of a post-transaction interface to the enhanced reality device103. In some instances, the enhanced reality teller control platform 104may send the post-transaction interface information and one or morecommands directing the enhanced reality device 103 to cause display of apost-transaction interface to the enhanced reality device 103 while thefirst wireless data connection is established and via the communicationinterface 113.

At step 254, the enhanced reality device 103 may receive thepost-transaction interface information and one or more commandsdirecting the enhanced reality device 103 to cause display of thepost-transaction interface. In some instances, the enhanced realitydevice 103 may receive the post-transaction interface information andone or more commands directing the enhanced reality device 103 to causedisplay of a post-transaction interface while the first wireless dataconnection is established.

At step 255, the enhanced reality device 103 may cause display of apost-transaction interface based on the post-transaction interfaceinformation and the one or more commands directing the enhanced realitydevice 103 to cause display of the post-transaction interface. Asdescribed above with regard to step 249, in causing display of thepost-transaction interface, the enhanced reality device 103 may causedisplay of a user interface that allows a user to continue aspects ofthe transaction although the user is not physically located at thescreen-less automated teller machine. Additionally or alternatively, incausing display of the post-transaction interface, the enhanced realitydevice 103 may cause display of a user interface that allows the user toexplore additional services provided by a financial institutioncorresponding to the automated teller machine terminal platform 102.Additionally or alternatively, in causing display of thepost-transaction interface, the enhanced reality device 103 may causedisplay of a user interface that allows the user to manage follow upissues and/or claims processing issues corresponding to the transaction.Additionally or alternatively, in causing display of thepost-transaction interface, the enhanced reality device 103 may causedisplay of a user interface that corresponds to a receipt of thetransaction.

Subsequently, the event sequence may end, and the enhanced realityteller control platform 104 may continue to facilitate transactionsbetween various enhanced reality devices and various screen-lessautomated teller machines of the automated teller machine terminalplatform 102. In providing a user interface for conducting transactionsat an enhanced reality device 103, the enhanced reality teller controlplatform 104 eliminates the need for displays at automated tellermachines. Additionally, by providing the user interfaces for conductingthe transactions at the enhanced reality device 103, the enhancedreality teller control platform 104 allows users to pre-stagetransactions prior to arriving at the automated teller machine terminalplatform 102 and to continue aspects of the transactions after leavingthe automated teller machine terminal platform 102 by causing display ofvarious transaction interfaces at the enhanced reality device 103.Further, by providing the user interfaces for conducting thetransactions at the enhanced reality device 103, the enhanced realityteller control platform 104 may increase transaction security by makinguser interfaces more private and by providing various securitynotifications. Thus, the enhanced reality teller control platform 104may reduce cost corresponding to automated teller machines and mayincrease both efficiency and security of conducting transactions at suchmachines.

FIG. 7 depicts an illustrative method for deploying a processing systemthat controls enhanced reality interfaces corresponding to a screen-lessautomated teller machine in accordance with one or more exampleembodiments. Referring to FIG. 7, at step 705, a computing platformhaving at least one processor, a communication interface, and memory mayestablish a connection with an enhanced reality device. At step 710, thecomputing platform may receive a transaction request input indicating atransaction to be conducted with a screen-less automated teller machine.At step 715, the computing platform may generate pre-transactioninterface information based on the transaction request input and maysend the pre-transaction interface information to an enhanced realitydevice 103. At step 720, the computing platform may determine whether apre-transaction completion notification was received. If apre-transaction notification was not received, the computing platformmay return to step 710. If a pre-transaction notification was received,the computing platform may proceed to step 725.

At step 725, the computing platform may establish a connection with anautomated teller machine terminal platform. At step 730, the computingplatform may send an automated teller machine availability request tothe automated teller machine terminal platform to determine availabilityof screen-less automated teller machines of the automated teller machineterminal platform. At step 735, the computing platform may receive andsubsequently forward an authentication request from an automated tellermachine terminal platform and to an enhanced reality devicerespectively. At step 740, the computing platform may receiveauthentication information and may determine whether the enhancedreality device is authenticated based on the authentication information.If the computing platform determines that the enhanced reality device isnot authenticated, the computing platform may return to step 735. If thecomputing platform determines that the enhanced reality device isauthenticated, the computing platform may proceed to step 745.

At step 745, the computing platform may send an authenticationindication to the automated teller machine terminal platform and theenhanced reality device. At step 750, the computing platform maygenerate and send transaction interface information that may be used bythe enhanced reality device to cause display of a user interface forconducting the transaction. At step 755, the computing platform maydetermine whether sensor data was received. If sensor data has not beenreceived, the computing platform may proceed to step 765. If sensor datahas been received, the computing platform may proceed to step 760.

At step 760, the computing platform may send a transaction notificationand one or more commands directing the enhanced reality device 103 tocause display of the transaction notification. At step 765, thecomputing platform may receive transaction information based on inputsto the transaction interface at the enhanced reality device, and maysend the transaction information to an automated teller machine terminalplatform. At step 770, the computing platform may determine whether atransaction completion indication was received. If a transactioncompletion indication was not received, the computing platform mayreturn to step 765. If a transaction completion indication was received,the computing platform may proceed to step 775.

At step 775, the computing platform may generate and send one or morecommands directing the enhanced reality device to cause output of ahaptic feedback output indicating that the transaction has beencompleted. At step 780, the computing platform may determine whether apost-transaction input was received. If a post-transaction input was notreceived, the event sequence may end. If a post-transaction input wasreceived, the event sequence may proceed to step 785. At step 785, thecomputing platform may send post-transaction information and one or morecommands for the enhanced reality device to generate a post-transactioninterface based on the post-transaction information to the enhancedreality device 103.

One or more aspects of the disclosure may be embodied in computer-usabledata or computer-executable instructions, such as in one or more programmodules, executed by one or more computers or other devices to performthe operations described herein. Generally, program modules includeroutines, programs, objects, components, data structures, and the likethat perform particular tasks or implement particular abstract datatypes when executed by one or more processors in a computer or otherdata processing device. The computer-executable instructions may bestored as computer-readable instructions on a computer-readable mediumsuch as a hard disk, optical disk, removable storage media, solid-statememory, RAM, and the like. The functionality of the program modules maybe combined or distributed as desired in various embodiments. Inaddition, the functionality may be embodied in whole or in part infirmware or hardware equivalents, such as integrated circuits,application-specific integrated circuits (ASICs), field programmablegate arrays (FPGA), and the like. Particular data structures may be usedto more effectively implement one or more aspects of the disclosure, andsuch data structures are contemplated to be within the scope of computerexecutable instructions and computer-usable data described herein.

Various aspects described herein may be embodied as a method, anapparatus, or as one or more computer-readable media storingcomputer-executable instructions. Accordingly, those aspects may takethe form of an entirely hardware embodiment, an entirely softwareembodiment, an entirely firmware embodiment, or an embodiment combiningsoftware, hardware, and firmware aspects in any combination. Inaddition, various signals representing data or events as describedherein may be transferred between a source and a destination in the formof light or electromagnetic waves traveling through signal-conductingmedia such as metal wires, optical fibers, or wireless transmissionmedia (e.g., air or space). In general, the one or morecomputer-readable media may be and/or include one or more non-transitorycomputer-readable media.

As described herein, the various methods and acts may be operativeacross one or more computing servers and one or more networks. Thefunctionality may be distributed in any manner, or may be located in asingle computing device (e.g., a server, a client computer, and thelike). For example, in alternative embodiments, one or more of thecomputing platforms discussed above may be combined into a singlecomputing platform, and the various functions of each computing platformmay be performed by the single computing platform. In such arrangements,any and/or all of the above-discussed communications between computingplatforms may correspond to data being accessed, moved, modified,updated, and/or otherwise used by the single computing platform.Additionally or alternatively, one or more of the computing platformsdiscussed above may be implemented in one or more virtual machines thatare provided by one or more physical computing devices. In sucharrangements, the various functions of each computing platform may beperformed by the one or more virtual machines, and any and/or all of theabove-discussed communications between computing platforms maycorrespond to data being accessed, moved, modified, updated, and/orotherwise used by the one or more virtual machines.

Aspects of the disclosure have been described in terms of illustrativeembodiments thereof. Numerous other embodiments, modifications, andvariations within the scope and spirit of the appended claims will occurto persons of ordinary skill in the art from a review of thisdisclosure. For example, one or more of the steps depicted in theillustrative figures may be performed in other than the recited order,and one or more depicted steps may be optional in accordance withaspects of the disclosure.

What is claimed is:
 1. A computing platform comprising: at least oneprocessor; a communication interface communicatively coupled to the atleast one processor; and memory storing computer-readable instructionsthat, when executed by the at least one processor, cause the computingplatform to: receive, from an enhanced reality device, a request toinitiate a transaction with a screen-less automated teller machine of anautomated teller machine terminal platform; send, to the enhancedreality device, pre-transaction interface information and one or morecommands directing the enhanced reality device to generate apre-transaction enhanced reality interface, wherein the pre-transactionenhanced reality interface prompts a user for information that is usedto initiate the transaction with the screen-less automated tellermachine; receive an authentication request from the screen-lessautomated teller machine indicating that the screen-less automatedteller machine is available and requesting authentication informationfrom the enhanced reality device; send, to the enhanced reality deviceand after validating the authentication information from the enhancedreality device, enhanced reality transaction interface information andone or more commands directing the enhanced reality device to generatean enhanced reality transaction interface corresponding to a display ofthe screen-less automated teller machine; receive a transactioncompletion indication from the screen-less automated teller machineindicating that the transaction with the screen-less automated tellermachine is complete; and send, to the enhanced reality device and afterreceiving the transaction completion indication from the screen-lessautomated teller machine indicating that the transaction with thescreen-less automated teller machine is complete, haptic feedbackindicating that the transaction is complete.
 2. The computing platformof claim 1, wherein the memory stores additional computer-readableinstructions that, when executed by the at least one processor, furthercause the computing platform to: establish, with the enhanced realitydevice, a first wireless data connection; and establish, with theautomated teller machine terminal platform, a second wireless dataconnection.
 3. The computing platform of claim 1, wherein the memorystores additional computer-readable instructions that, when executed bythe at least one processor, further cause the computing platform to:receive the information that is used to initiate the transaction withthe screen-less automated teller machine, wherein the informationcorresponds to a type of transaction to be performed and additionalinformation corresponding to the transaction.
 4. The computing platformof claim 1, wherein the memory stores additional computer-readableinstructions that, when executed by the at least one processor, furthercause the computing platform to: receive a pre-transaction completionindication from the enhanced reality device; generate, in response toreceiving the pre-transaction completion indication, a screen-lessautomated teller machine availability request; and send, to theautomated teller machine terminal platform, the screen-less automatedteller machine availability request.
 5. The computing platform of claim4, wherein the memory stores additional computer-readable instructionsthat, when executed by the at least one processor, further cause thecomputing platform to: send, to the enhanced reality device, theauthentication request; receive, in response to the authenticationrequest, authentication information; validate the authenticationinformation; generate, after validating the authentication information,an authentication indication; and send, to the screen-less automatedteller machine and the enhanced reality device, the authenticationindication.
 6. The computing platform of claim 1, wherein the memorystores additional computer-readable instructions that, when executed bythe at least one processor, further cause the computing platform to:generate, based on the information that is used to initiate thetransaction with the screen-less automated teller machine, the enhancedreality transaction interface information.
 7. The computing platform ofclaim 1, wherein the memory stores additional computer-readableinstructions that, when executed by the at least one processor, furthercause the computing platform to: receive sensor data from one or moresensors connected to the screen-less automated teller machine; generate,based on the sensor data, a transaction notification and one or morecommands directing the enhanced reality device to cause display of thetransaction notification; and send, to the enhanced reality device, thetransaction notification and the one or more commands directing theenhanced reality device to cause display of the transactionnotification.
 8. The computing platform of claim 1, wherein the memorystores additional computer-readable instructions that, when executed bythe at least one processor, further cause the computing platform to:receive the transaction completion indication; and generate, in responseto receiving the transaction completion indication, one or more commandsdirecting the enhanced reality device to provide a haptic feedbackoutput indicating that the transaction is complete.
 9. The computingplatform of claim 1, wherein the memory stores additionalcomputer-readable instructions that, when executed by the at least oneprocessor, further cause the computing platform to: receivepost-transaction information; generate, based on the post-transactioninformation, post-transaction interface information; and send, to theenhanced reality device, the post-transaction interface information,wherein sending the post-transaction interface information causes theenhanced reality device to generate one or more post-transactionenhanced reality interfaces using the post-transaction interfaceinformation.
 10. A method comprising: at a computing platform comprisingat least one processor, a communication interface, and memory:receiving, from an enhanced reality device, a request to initiate atransaction with a screen-less automated teller machine of an automatedteller machine terminal platform; sending, to the enhanced realitydevice, pre-transaction interface information and one or more commandsdirecting the enhanced reality device to generate a pre-transactionenhanced reality interface, wherein the pre-transaction enhanced realityinterface prompts a user for information that is used to initiate thetransaction with the screen-less automated teller machine; receiving anauthentication request from the screen-less automated teller machineindicating that the screen-less automated teller machine is availableand requesting authentication information from the enhanced realitydevice; sending, to the enhanced reality device and after validating theauthentication information from the enhanced reality device, enhancedreality transaction interface information and one or more commandsdirecting the enhanced reality device to generate an enhanced realitytransaction interface corresponding to a display of the screen-lessautomated teller machine; receiving a transaction completion indicationfrom the screen-less automated teller machine indicating that thetransaction with the screen-less automated teller machine is complete;and sending, to the enhanced reality device and after receiving thetransaction completion indication from the screen-less automated tellermachine indicating that the transaction with the screen-less automatedteller machine is complete, haptic feedback indicating that thetransaction is complete.
 11. The method of claim 10, further comprising:establishing, with the enhanced reality device, a first wireless dataconnection; and establishing, with the automated teller machine terminalplatform, a second wireless data connection.
 12. The method of claim 10,further comprising: receiving the information that is used to initiatethe transaction with the screen-less automated teller machine, whereinthe information corresponds to a type of transaction to be performed andadditional information corresponding to the transaction.
 13. The methodof claim 10, further comprising: receiving a pre-transaction completionindication from the enhanced reality device; generating, in response toreceiving the pre-transaction completion indication, a screen-lessautomated teller machine availability request; and sending, to theautomated teller machine terminal platform, the screen-less automatedteller machine availability request.
 14. The method of claim 13, furthercomprising: sending, to the enhanced reality device, the authenticationrequest; receiving, in response to the authentication request,authentication information; validating the authentication information;generating, after validating the authentication information, anauthentication indication; and sending, to the screen-less automatedteller machine and the enhanced reality device, the authenticationindication.
 15. The method of claim 10, further comprising: generating,based on the information that is used to initiate the transaction withthe screen-less automated teller machine, the enhanced realitytransaction interface information.
 16. The method of claim 10, furthercomprising: receiving sensor data from one or more sensors connected tothe screen-less automated teller machine; generating, based on thesensor data, a transaction notification and one or more commandsdirecting the enhanced reality device to cause display of thetransaction notification; and sending, to the enhanced reality device,the transaction notification and the one or more commands directing theenhanced reality device to cause display of the transactionnotification.
 17. The method of claim 10, further comprising: receivingthe transaction completion indication; and generating, in response toreceiving the transaction completion indication, one or more commandsdirecting the enhanced reality device to provide a haptic feedbackoutput indicating that the transaction is complete.
 18. The method ofclaim 10, further comprising: receiving post-transaction information;generating, based on the post-transaction information, post-transactioninterface information; and sending, to the enhanced reality device, thepost-transaction interface information, wherein sending thepost-transaction interface information causes the enhanced realitydevice to generate one or more post-transaction enhanced realityinterfaces using the post-transaction interface information.
 19. One ormore non-transitory computer-readable media storing instructions that,when executed by a computing platform comprising at least one processor,a communication interface, and memory, cause the computing platform to:receive, from an enhanced reality device, a request to initiate atransaction with a screen-less automated teller machine of an automatedteller machine terminal platform; send, to the enhanced reality device,pre-transaction interface information and one or more commands directingthe enhanced reality device to generate a pre-transaction enhancedreality interface, wherein the pre-transaction enhanced realityinterface prompts a user for information that is used to initiate thetransaction with the screen-less automated teller machine; receive anauthentication request from the screen-less automated teller machineindicating that the screen-less automated teller machine is availableand requesting authentication information from the enhanced realitydevice; send, to the enhanced reality device and after validating theauthentication information from the enhanced reality device, enhancedreality transaction interface information and one or more commandsdirecting the enhanced reality device to generate an enhanced realitytransaction interface corresponding to a display of the screen-lessautomated teller machine; receive a transaction completion indicationfrom the screen-less automated teller machine indicating that thetransaction with the screen-less automated teller machine is complete;and send, to the enhanced reality device and after receiving thetransaction completion indication from the screen-less automated tellermachine indicating that the transaction with the screen-less automatedteller machine is complete, haptic feedback indicating that thetransaction is complete.
 20. The one or more non-transitorycomputer-readable media of claim 19, wherein the memory storesadditional computer-readable instructions that, when executed by the atleast one processor, further cause the computing platform to: receivesensor data from one or more sensors connected to the screen-lessautomated teller machine; generate, based on the sensor data, atransaction notification and one or more commands directing the enhancedreality device to cause display of the transaction notification; andsend, to the enhanced reality device, the transaction notification andthe one or more commands directing the enhanced reality device to causedisplay of the transaction notification.